Me. Ritchie et D. Tilman, RESPONSES OF LEGUMES TO HERBIVORES AND NUTRIENTS DURING SUCCESSION ONA NITROGEN-POOR SOIL, Ecology, 76(8), 1995, pp. 2648-2655
We measured legume abundance following 13- and 5-yr experiments testin
g for the effects of mammalian herbivores, nutrients, and climate on p
lant communities in an old field and a savanna in east central Minneso
ta. Total legume abundance was significantly greater in plots with her
bivores excluded. Within herbivore exclosures, legumes were more abund
ant in plots to which P, K, S, Mg, Mn, Ca, Na, and trace minerals had
been added. Legumes were significantly more abundant in the savanna th
an in the old field. Lathyrus venosus, a rapidly growing early-maturin
g species, was largely responsible for these results. Two other common
legumes at our study site, Amorpha canescens and Lespedeza capitata,
were not significantly affected by herbivore exclosures. However, with
in herbivore exclosures, addition of nutrients significantly reduced L
espedeza. Late summer total legume biomass within herbivore exclosures
increased strongly following exclosure establishment in 1982, decline
d dramatically following a severe drought in 1988, and then increased
again following the drought. This trend suggested that herbivore effec
ts we measured in 1994 resulted from long-term accumulation of legumes
following the establishment of exclosures. Our results suggest that h
erbivores and nutrients other than nitrogen can dramatically limit the
abundance of some legume species that might otherwise dominate grassl
and plant communities on nitrogen-poor soils. Limitation of legumes by
colonization and drought may also be important. Thus, herbivores and
nutrients other than nitrogen may be critical in structuring grassland
plant communities and influencing succession, even on nitrogen-poor s
oils.